A magnetic energy convertor for vehicle axles includes an annular housing, a rotor shaft, a bearing, an annular bracket, a magnetized female adaptor, a magnetized male adaptor, a magnetized impeller assembly, and a fluid turbine system. The rotor shaft is rotatably mounted within the annular bracket by the bearing. The annular housing is radially mounted around the annular bracket. The magnetized female adaptor is terminally mounted to the rotor shaft. The magnetized male adaptor is terminally mounted to the rotor shaft, opposite of the magnetized female adaptor. The magnetized impeller assembly is slidably engaged within the annular housing so that the magnetized impeller assembly can be magnetically engaged with the magnetized female adaptor and the magnetized male adaptor through the rotation of the rotor shaft. The fluid turbine system is in fluid communication with the annular housing, wherein the circulation of fluid flow generates electricity within the fluid turbine system.
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1. A magnetic energy convertor for vehicle axles comprises:
an annular housing;
a rotor shaft;
a bearing;
an annular bracket;
a magnetized female adaptor;
a magnetized male adaptor;
a magnetized impeller assembly;
a fluid turbine system;
the annular housing, the rotor shaft, the bearing, the annular bracket, the magnetized female adaptor, the magnetized male adaptor, and the magnetized impeller assembly being concentrically positioned along a central axis;
the rotor shaft being rotatably mounted within the annular bracket by the bearing;
the annular housing being radially mounted around the annular bracket;
the magnetized female adaptor being terminally mounted to the rotor shaft;
the magnetized male adaptor being terminally mounted to the rotor shaft, opposite of the magnetized female adaptor;
the magnetized impeller assembly being slidably engaged within the annular housing;
the magnetized impeller assembly being magnetically engaged with the magnetized female adaptor and the magnetized male adaptor; and
the fluid turbine system being in fluid communication with the annular housing.
2. The magnetic energy convertor for vehicle axles as claimed in
the annular housing comprises a first half-housing, a first annular track, an inlet, a second half-housing, a second annular track, and an outlet;
the first annular track traversing into the first half-housing;
the inlet traversing through the first half-housing and into the first annular track;
the inlet being in fluid communication with the first annular track;
the second annular track traversing into the second half-housing;
the outlet traversing through the second half-housing and into the second annular track;
the outlet being in fluid communication with the second annular track; and
the inlet and the outlet being in fluid communication with each other through the first annular track and the second annular track.
3. The magnetic energy convertor for vehicle axles as claimed in
the magnetized female adaptor comprises a proximal cylindrical body, an axle opening, a proximal shaft opening, and a plurality of first outer magnets;
the axle opening terminally traversing into the proximal cylindrical body;
the proximal shaft opening terminally traversing into the proximal cylindrical body, opposite of the axle opening;
the axle opening and the proximal shaft opening being concentrically positioned with each other about the proximal cylindrical body;
the plurality of first outer magnets being radially connected around the proximal cylindrical body; and
the plurality of first outer magnets being positioned adjacent to the proximal shaft opening.
4. The magnetic energy convertor for vehicle axles as claimed in
the proximal cylindrical body comprises a first base-surface, a second base-surface, a lateral surface, and a chamfered edge;
the first base-surface and the second base-surface being oppositely positioned of each other;
the lateral surface being perpendicularly connected to the second base-surface;
the chamfered edge being angularly connected to the first base-surface;
the lateral surface and the chamfered edge being adjacently connected to each other, in between the first base-surface and the second base-surface;
the axle opening traversing into the proximal cylindrical body from the second base-surface;
the proximal shaft opening traversing into the proximal cylindrical body from the first base-surface;
the chamfered edge being positioned adjacent to the proximal shaft opening; and
the plurality of first outer magnets being laterally connected onto the chamfered edge.
5. The magnetic energy convertor for vehicle axles as claimed in
the magnetized male adaptor comprises a distal cylindrical body, a wheel hub connector, a distal shaft opening, and a plurality of second outer magnets;
the wheel hub connector being adjacently connected to the distal cylindrical body;
the distal shaft opening terminally traversing into the distal cylindrical body, opposite of the wheel hub connector;
the wheel hub connector and the distal shaft opening being concentrically positioned with each other about the distal cylindrical body;
the plurality of second outer magnets being radially connected around the distal cylindrical body; and
the plurality of second outer magnets being positioned adjacent to the distal shaft opening.
6. The magnetic energy convertor for vehicle axles as claimed in
the distal cylindrical body comprises a first base-surface, a lateral surface, and a chamfered edge;
the first base-surface and the wheel hub connector being oppositely positioned of each other about the distal cylindrical body;
the lateral surface being perpendicularly positioned to the first base-surface;
the chamfered edge being angularly connected in between the first base-surface and the lateral surface;
the distal shaft opening traversing into the distal cylindrical body from the first base-surface;
the chamfered edge being positioned adjacent to the distal shaft opening; and
the plurality of second outer magnets being laterally connected onto the chamfered edge.
7. The magnetic energy convertor for vehicle axles as claimed in
the magnetized impeller assembly comprises a plurality of fins, at least one pair of rollers, and a plurality of impeller magnets;
the plurality of fins being radially positioned within a first annular track and a second annular track of the annular housing;
the at least one pair of rollers being symmetrically connected to each of the plurality of fins;
the at least one pair of rollers being rotatably engaged with the first annular track and the second annular track;
the plurality of impeller magnets being radially positioned within the first annular track and the second annular track; and
each of the plurality of impeller magnets being radially disposed within a pair of fins from the plurality of fins.
8. The magnetic energy convertor for vehicle axles as claimed in
an inner race of the bearing being radially mounted around the rotor shaft;
the annular bracket being radially mounted around an outer race of the bearing; and
a first half-housing and a second half-housing of the annular housing being radially mounted to each other through the annular bracket.
9. The magnetic energy convertor for vehicle axles as claimed in
a plurality of first fasteners;
the magnetized female adaptor comprises a proximal cylindrical body and a proximal shaft opening;
the proximal shaft opening being concentrically engaged around the rotor shaft; and
the proximal cylindrical body being radially mounted to the rotor shaft by the plurality of first fasteners.
10. The magnetic energy convertor for vehicle axles as claimed in
a plurality of second fasteners;
the magnetized male adaptor comprises a distal cylindrical body and a distal shaft opening;
the distal shaft opening being concentrically engaged around the rotor shaft; and
the distal cylindrical body being radially mounted to the rotor shaft by the plurality of second fasteners.
11. The magnetic energy convertor for vehicle axles as claimed in
the magnetized female adaptor comprises a plurality of first outer magnets the magnetized male adaptor comprises a plurality of second outer magnets;
the magnetized impeller assembly comprises a plurality of fins and a plurality of impeller magnets;
the plurality of impeller magnets being magnetically engaged with the plurality of first outer magnets and the plurality of second outer magnets; and
the plurality of fins being magnetically engaged with the plurality of impeller magnets.
12. The magnetic energy convertor for vehicle axles as claimed in
the fluid turbine system comprises a reservoir, a turbine housing, a turbine unit, a generator, and at least one battery;
the turbine unit being rotatably mounted within the turbine housing;
a rotor of the generator being mechanically coupled with the turbine unit, wherein the rotation of the turbine unit axially rotates the rotor of the generator;
the at least one battery being electrically connected with the generator; and
the reservoir being in fluid communication with the annular housing and the turbine housing.
13. The magnetic energy convertor for vehicle axles as claimed in
an outlet of the reservoir being in fluid communication with an inlet of the annular housing;
an outlet of the annular housing being in fluid communication with an inlet of the turbine housing; and
an outlet of the turbine housing being in fluid communication with an inlet of the reservoir.
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The current application claims a priority to the U.S. Provisional Patent application Ser. No. 62/622,257 filed on Jan. 26, 2018.
The present invention relates generally to an apparatus for an energy conversion device. More specifically, the present invention is an energy conversion device and is utilized to harness wasted rotational energy of the vehicle axle.
When a vehicle is in motion through the drivetrain system and other essential vehicular systems, majority of energy is lost due to conversion of chemical energy to mechanical energy (gasoline powered vehicles), friction, wasted heat, drag, braking, rolling resistance, and other vehicular functionalities. Generally, there are three basic ways to recover wasted energy in a vehicle. First is the regenerative shock that spins a hydraulic motor to generate electricity through the fluid movement within the shocks. Second is the regenerative braking system converts the motion of the car's wheels in reverse so that the electric motor can functions as generators to convert unwanted kinetic energy into electricity. Third is the recovery of wasted heat from the engine exhaust through a thermoelectric system which converts heat directly into electricity. However, there is a need to further address energy loss of vehicle that is in motion.
It is an objective of the present invention is to provide a magnetic energy convertor for vehicle axles so that the wasted mechanical energy of the vehicle axle can be converted into the electrical energy. More specifically, the present invention converts the mechanical force that was naturally wasted through the rotation of the vehicle axle into electrical energy so that converted energy can be stored within the vehicle. When the vehicle axle of the vehicle turns either from propelling the vehicle, coasting, or wheels rotation, magnetized male and female adaptors the present invention magnetically rotates a plurality of fins that are positioned with a housing. The rotation of the plurality of fins moves liquid within a closed loop system, wherein the fluid movement and an integrated turbine system generate electricity.
All illustrations of the drawings are for the purpose of describing selected versions of the present invention and are not intended to limit the scope of the present invention.
The present invention is a magnetic energy convertor for vehicle axles to harness any mechanical energy that is generally wasted. The present invention is mounted in between the constant-velocity (CV) axle shaft and the wheel hub thus allowing the present invention to harness the rotational energy of the cv axle shaft. The present invention comprises an annular housing 1, a rotor shaft 8, a bearing 9, an annular bracket 12, a magnetized female adaptor 13, a magnetized male adaptor 22, a magnetized impeller assembly 27, and a fluid turbine system 31 as shown in
In reference to the general positioning for the components of the present invention, the annular housing 1, the rotor shaft 8, the bearing 9, the annular bracket 12, the magnetized female adaptor 13, the magnetized male adaptor 22, and the magnetized impeller assembly 27 are concentrically positioned along a central axis 44 as shown in
The annular housing 1 is an enclosed body that slidably places the magnetized impeller assembly 27 and provides a path to the fluid flow to be circulated. The annular housing 1 can be made of high strength and rigid material that can withstand elevated temperature so that the magnetized impeller assembly 27 and the fluid turbine system 31 can be integrated into the annular housing 1. In reference to
The magnetized female adaptor 13 functions as the connecting body in between the present invention and the cv axle shaft so that the rotational energy of the cv axle shaft can be axially transferred into the present invention. The magnetized female adaptor 13 can be made of high strength and rigid material to improve the structural integrity and to withstand applied torque. In reference to
The proximal cylindrical body 14 comprises a first base-surface 15, a second base-surface 16, a lateral surface 17, and a chamfered edge 18 as shown in
In reference to
The magnetized male adaptor 22 functions as the connecting body in between the present invention and the wheel hub so that the rotational energy from the present invention can be axially transferred into the wheel hub. The magnetized male adaptor 22 can be made of high strength and rigid material to improve the structural integrity and to withstand applied torque. In reference to
The distal cylindrical body 23 comprises a first base-surface 15, a lateral surface 17, and a chamfered edge 18 as shown in
In reference to
The magnetized impeller assembly 27 is magnetically engaged with the magnetized female adaptor 13 and the magnetized male adaptor 22 so that the fluid flow can be circulated within the present invention. In reference to
The bearing 9, that facilitates the connection between the rotor shaft 8 and the annular bracket 12, comprises an inner race 10 and an outer race 11 that functions similar to traditional bearing 9. In reference to
In reference to
Although the invention has been explained in relation to its preferred embodiment, it is to be understood that many other possible modifications and variations can be made without departing from the spirit and scope of the invention as hereinafter claimed.
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